Dr. Guy Bluford Reflects on 40th Anniversary of Historic Shuttle Flight 

Dr. Guy Bluford Reflects on 40th Anniversary of Historic Shuttle Flight 

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Dr. Guy Bluford Reflects on 40th Anniversary of Historic Shuttle Flight 

Guy Bluford sits in front of a microphone at Great Lakes Science Center in Cleveland. He discusses his historic shuttle flight. A giant domed screen is in the background.
Dr. Guy Bluford talks about his historic flight at Great Lakes Science Center in Cleveland.
Credit: NASA/Sara Lowthian-Hanna

In celebration of the 40th anniversary of the space shuttle Challenger’s STS-8 mission, former astronaut Dr. Guion “Guy” Bluford, the first African American to fly in space, discussed his historic flight at Great Lakes Science Center in Cleveland on Aug. 28. 

NASA Chief Historian Brian Odom moderated a panel discussion about Bluford’s experience and how his career has helped open doors for other astronauts, including those that will fly on NASA’s Artemis missions. Panelists included Bluford and award-winning film directors Lisa Cortés and Diego Hurtado de Mendoza. NASA Associate Administrator Bob Cabana, who flew with Bluford on STS-53, gave introductory remarks.  

A free screening of the National Geographic documentary “The Space Race” followed the panel discussion. Interviews with Bluford for the documentary were filmed at NASA’s Glenn Research Center in the Zero Gravity Research Facility. 

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Kelly M. Matter

Glenn in the Community

Glenn in the Community

3 Min Read

Glenn in the Community

Many people wander through a large, enclosed tent. They stop to view or experience aeronautics-and space related-interactive displays.

AirVenture guests enjoyed a variety of hands-on, informational activities within the NASA pavilion.

Credits:
NASA/Christopher Hartenstine

NASA Visits Ohio State Fair

An estimated one million people attended the Ohio State Fair in Columbus this year. NASA’s Glenn Research Center flanked the fairgrounds with a presence that proved you can never have enough space. Subject matter experts such as Michael Belair, who works on the Orion spacecraft’s European Service Module, staffed an information booth inside the Rocket and Space Zone to talk about Artemis I and build excitement for future missions to the Moon, Mars, and beyond. Anchoring the other end was the Journey to Tomorrow exhibit trailer, where visitors found a moon rock, videos highlighting innovations in aeronautics, and hands-on activities demonstrating how gravity differs across the solar system.  

Michael Belair, with two small girls at either side, explains information at a table with colorful images of space. Their backs are facing the camera.
Michael Belair staffs an information booth inside the Rocket and Space Zone to talk about Artemis.
Credit: NASA/Heather Brown

Glenn Connects at Air Shows

Mark Frances shows a young boy how to use his goggles and controls to experience interactive technology. They are inside a tent.
AirVenture guests enjoy a variety of hands-on, informational activities within the NASA pavilion.
Credit: NASA/Christopher Hartenstine

NASA’s Glenn Research Center connected with thousands of aviation enthusiasts this summer during EAA AirVenture in Oshkosh, Wisconsin, and the Cleveland National Air Show. NASA’s AirVenture presence in July included a pavilion of exhibits, numerous speakers at forums, and a program featuring senior leaders discussing X-plane development and traffic management for drones.

Mark Frances shows a young boy how to use his goggles and controls to experience interactive technology. They are inside a tent.
Mark Frances from Glenn’s Graphics and Visualization Lab, helps Cleveland Air Show visitors experience interactive technology.
Credit: NASA/Heather Brown

Over the Labor Day weekend, Glenn led the NASA presence at the Cleveland show at Burke Lakefront Airport. Staff demonstrated data visualizations and interactive technology. Subject matter experts explained Glenn’s aeronautics research and work on advanced air mobility and sustainable aviation.  

Government Staffers Learn More About Glenn 

NASA’s Glenn Research Center held its annual Ohio Elected Officials Staffer’s Day on Aug. 30, which included visits to NASA’s Neil Armstrong Test Facility in Sandusky and Lewis Field in Cleveland. The day – featuring facility tours, technology briefings, and a ribbon- cutting ceremony for a new mission-focused facility – centered on educating staffers on the importance of NASA Glenn to Ohio and the nation. Participants included 31 staffers from 11 House of Representatives offices, Senator Sherrod Brown’s and Senator J.D. Vance’s offices, Governor Mike DeWine’s office, and Brook Park Mayor Edward Orcutt’s office.   

Several visitors gather in a circle to look down into a huge vacuum chamber at NASA’s Neil Armstrong Test Facility.
While on tour at NASA’s Neil Armstrong Test Facility, staffers look down into the In-Space Propulsion (ISP) Facility’s huge vacuum chamber. ISP is the world’s only high-altitude test facility capable of full-scale rocket engine and launch vehicle system- level tests. 
Credit: NASA/Sara Lowthian-Hanna

Glenn Hosts Public Aviation Day 

NASA’s Glenn Research Center showcased the agency’s efforts to revolutionize air travel during NASA Aviation Day at the I-X Center in Cleveland on Sept. 13. This free event featured a variety of aviation projects underway at Glenn and other NASA centers, including the Quesst mission with the X-59, electrified aircraft propulsion and other sustainable aviation technologies, and new ways to move people and cargo using advanced aircraft systems. Experts shared how the center is partnering with industry to accomplish the aviation community’s climate change agenda to achieve net-zero carbon emissions by 2050. 

Glenn’s Greg Gatlin, left, explains the concept behind the extra-long, thin wings on an aircraft model to attendees of NASA Aviation Day. The concept will be part of the X-66A, the first X-plane specifically focused on helping the United States achieve the goal of net-zero aviation greenhouse gas emissions.
NASA’s Greg Gatlin, left, explains the concept behind the extra-long, thin wings on an aircraft model to attendees of NASA Aviation Day. The concept will be part of the X-66A, the first X-plane specifically focused on helping the United States achieve the goal of net-zero aviation greenhouse gas emissions.
Credit: NASA/Sara Lowthian-Hanna

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Kelly M. Matter

Glenn “Stars” Showcase Research and Technology

Glenn “Stars” Showcase Research and Technology

2 min read

Glenn “Stars” Showcase Research and Technology

Left to right: Glenn’s Darcy DeAngelis, Dr. Rickey Shyne, Gretchen Moralles-Valle, Carlos Flores, and Dr. Jamesa Stokes share information on NASA Glenn’s technology and mission during “Evening With The Stars.”
Presenters highlight Glenn’s technology and missions during the annual Evening With the Stars event.
Credit: NASA/Jef Janis

NASA’s Glenn Research Center’s “An Evening With the Stars,” held Aug. 29 at Windows on the River near Cleveland’s historic waterfront, showcased research and technology innovations that addressed this year’s theme, “NASA Glenn Now – NASA Glenn Forever.”   

 The event, which attracted sponsors and guests from more than 50 companies, universities, and organizations, featured opening remarks by NASA Associate Administrator Bob Cabana, NASA Glenn Center Director Dr. Jimmy Kenyon, and Ohio Aerospace Institute President John Sankovic. 

Center Director Dr. Jimmy Kenyon addresses an audience from a podium on stage.
Glenn Center Director Dr. Jimmy Kenyon introduces the speakers.
Credit: NASA/Jef Janis

Kenyon then introduced the presenters – NASA’s stars of the evening – and their topics. 

Carlos Flores, chief of the Strategic Planning Branch for Facilities and Infrastructure, shared details on Glenn’s Facilities Master Plan. This plan ensures the center possesses the facilities and capabilities to meet future mission requirements while maintaining the agency’s critical infrastructure.   

Carlos Flores, in a suit, smiles as he addresses an audience from a stage.
Carlos Flores details Glenn’s Facilities Master Plan.
Credit: NASA/Sara Lowthian-Hanna

Dr.Rickey Shyne, director of Research and Engineering, highlighted some of Glenn’s current and future technologies. Shyne leads and manages all research and development competencies in propulsion, communications, power, and materials and structures for extreme environments in support of NASA’s aeronautics and space missions.   

Dr. Rickey Shyne, in a suit, smiles as he addresses an audience from a stage.
Dr. Rickey Shyne highlights some of Glenn’s current and future technologies.
Credit: NASA/Jef Janis

Three early – career employees shared their personal journeys to NASA and how they’re contributing to the agency’s current and future missions.

Dr. Jamesa Stokes explained how she’s using materials science and engineering to protect human life and flight vehicles on Earth and in space.   

Dr. Jamesa Stokes smiles as she addresses an audience from a stage.
Dr. Jamesa Stokes explains how materials science and engineering can protect human life and flight vehicles.
Credit: NASA/Jef Janis

Gretchen Morales-Valles highlighted the history of Glenn’s Icing Research Tunnel and how its research will pave the way for the future of flight.   

Gretchen Moralles-Valle smiles as she addresses an audience from a stage.
Gretchen Morales-Valles highlights the history of Glenn’s Icing Research Tunnel.
Credit: NASA/Jef Janis

Darcy DeAngelis outlined how – through system safety – NASA controls and mitigates risks to ensure astronauts return home safely.  

Darcy DeAngelis smiles as she addresses an audience from a stage.
Darcy DeAngelis outlines how NASA controls and mitigates risks for astronauts.
Credit: NASA/Jef Janis

In closing, Kenyon affirmed NASA’s readiness in returning to the Moon with Artemis, our commitment to changing the way we fly here on Earth, and how Ohio is making our exciting missions possible.

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Kelly M. Matter

Webb Detects Tiny Quartz Crystals in the Clouds of a Hot Gas Giant

Webb Detects Tiny Quartz Crystals in the Clouds of a Hot Gas Giant

Researchers using NASA’s James Webb Space Telescope have detected evidence for quartz nanocrystals in the high-altitude clouds of WASP-17 b, a hot Jupiter exoplanet 1,300 light-years from Earth. The detection, which was uniquely possible with MIRI (Webb’s Mid-Infrared Instrument), marks the first time that silica (SiO2) particles have been spotted in an exoplanet atmosphere.

Illustration showing a portion of the disk of a cloudy planet set against the black background of space. About one-eighth of the planet is visible. It fills the lower right half of the frame, with the limb (the edge, or horizon) curving from the bottom left corner to the upper right corner. The planet is partially lit by a star that is off to the upper left, out of view. The planet is brightest along the limb (on the dayside), and grows dimmer toward the lower right corner (the nightside), becoming almost completely dark about halfway in. Wispy, light-tan-colored clouds are visible in the lit portion and there is a hazy blueish glow along the horizon. Several stars are scattered in the background.
This artist concept shows what the exoplanet WASP-17 b could look like.
Graphics: NASA, ESA, CSA, and R. Crawfor, d (STScI)Science: Nikole Lewis (Cornell University), David Grant (University of Bristol), Hannah Wakeford (University of Bristol) Crawford (STScI)

“We were thrilled!” said David Grant, a researcher at the University of Bristol in the UK and first author on a paper being published today in the Astrophysical Journal Letters. “We knew from Hubble observations that there must be aerosols—tiny particles making up clouds or haze—in WASP-17 b’s atmosphere, but we didn’t expect them to be made of quartz.”

Silicates (minerals rich in silicon and oxygen) make up the bulk of Earth and the Moon as well as other rocky objects in our solar system, and are extremely common across the galaxy. But the silicate grains previously detected in the atmospheres of exoplanets and brown dwarfs appear to be made of magnesium-rich silicates like olivine and pyroxene, not quartz alone – which is pure SiO2.

The result from this team, which also includes researchers from NASA’s Ames Research Center and NASA’s Goddard Space Flight Center, puts a new spin on our understanding of how exoplanet clouds form and evolve. “We fully expected to see magnesium silicates,” said co-author Hannah Wakeford, also from the University of Bristol. “But what we’re seeing instead are likely the building blocks of those, the tiny ‘seed’ particles needed to form the larger silicate grains we detect in cooler exoplanets and brown dwarfs.”

Detecting Subtle Variations

With a volume more than seven times that of Jupiter and a mass less than one-half Jupiter, WASP-17 b is one of the largest and puffiest known exoplanets. This, along with its short orbital period of just 3.7 Earth-days, makes the planet ideal for transmission spectroscopy : a technique that involves measuring the filtering and scattering effects of a planet’s atmosphere on starlight.

Webb observed the WASP-17 system for nearly 10 hours, collecting more than 1,275 brightness measurements of 5- to 12-micron mid-infrared light as the planet crossed its star. By subtracting the brightness of individual wavelengths of light that reached the telescope when the planet was in front of the star from those of the star on its own, the team was able to calculate the amount of each wavelength blocked by the planet’s atmosphere.

What emerged was an unexpected “bump” at 8.6 microns, a feature that would not be expected if the clouds were made of magnesium silicates or other possible high temperature aerosols like aluminum oxide, but which makes perfect sense if they are made of quartz.

alt="Graphic titled “Hot Gas Giant Exoplanet WASP-17 b Composition of Cloud Particles, MIRI Low-Resolution Time-Series Spectroscopy” showing 28 data points plotted as white circles with vertical error bars on a graph of amount of light blocked in percent on the y-axis versus wavelength of light in microns on the x-axis. The y-axis ranges from 1.45 to 1.65 percent. The x-axis ranges from 5 to 12 microns. A jagged purple line is labeled “Model spectrum based on Webb, Hubble, and Spitzer data.” One broad, prominent peak visible in the data and model is highlighted with a vertical green band labeled “Light blocked by quartz (S I O 2) crystals.” The peak is centered at about 8.6 microns and 1.59 percent. Running across the green band below the purple peak, is a jagged dashed yellow line labeled “What the spectrum would look like with no quartz clouds.” This line slopes down to the right. In the background is an illustration of a planet with wispy clouds and a hazy blueish glow along the horizon."
A transmission spectrum of the hot gas giant exoplanet WASP-17 b captured by Webb’s Mid-Infrared Instrument (MIRI) on March 12-13, 2023, reveals the first evidence for quartz (crystalline silica, SiO2) in the clouds of an exoplanet.
The spectrum was made by measuring the change in brightness of 28 wavelength-bands of mid-infrared light as the planet transited the star. Webb observed the WASP-17 system using MIRI’s low-resolution spectrograph for nearly 10 hours, collecting more than 1,275 measurements before, during, and after the transit.
For each wavelength, the amount of light blocked by the planet’s atmosphere (white circles) was calculated by subtracting the amount that made it through the atmosphere from the amount originally emitted by the star.
The solid purple line is a best-fit model to the Webb (MIRI), Hubble, and Spitzer data. (The Hubble and Spitzer data cover wavelengths from 0.34 to 4.5 microns and are not shown on the graph.) The spectrum shows a clear feature around 8.6 microns, which astronomers think is caused by silica particles absorbing some of the starlight passing through the atmosphere.
The dashed yellow line shows what that part of the transmission spectrum would look like if the clouds in WASP-17 b’s atmosphere did not contain SiO2.
This marks the first time that SiO2 has been identified in an exoplanet, and the first time any specific cloud species has been identified in a transiting exoplanet.
Graphics: NASA, ESA, CSA, and R. Crawfor, d (STScI)Science: Nikole Lewis (Cornell University), David Grant (University of Bristol), Hannah Wakeford (University of Bristol) Crawford (STScI)

Download full resolution images for this article from the Space Telescope Science Institute (STScI)

Crystals, Clouds, and Winds

While these crystals are probably similar in shape to the pointy hexagonal prisms found in geodes and gem shops on Earth, each one is only about 10 nanometers across—one-millionth of one centimeter.

“Hubble data actually played a key role in constraining the size of these particles,” explained co-author Nikole Lewis of Cornell University, who leads the Webb Guaranteed Time Observation (GTO) program designed to help build a three-dimensional view of a hot Jupiter atmosphere. “We know there is silica from Webb’s MIRI data alone, but we needed the visible and near-infrared observations from Hubble for context, to figure out how large the crystals are.”

Unlike mineral particles found in clouds on Earth, the quartz crystals detected in the clouds of WASP-17 b are not swept up from a rocky surface. Instead, they originate in the atmosphere itself. “WASP-17 b is extremely hot—around 1,500 degrees Celsius (2,700°F)—and the pressure where they form high in the atmosphere is only about one-thousandth of what we experience on Earth’s surface,” explained Grant. “In these conditions, solid crystals can form directly from gas, without going through a liquid phase first.”

Understanding what the clouds are made of is crucial for understanding the planet as a whole. Hot Jupiters like WASP-17 b are made primarily of hydrogen and helium, with small amounts of other gases like water vapor (H2O) and carbon dioxide (CO2). “If we only consider the oxygen that is in these gases, and neglect to include all of the oxygen locked up in minerals like quartz (SiO2), we will significantly underestimate the total abundance,” explained Wakeford. “These beautiful silica crystals tell us about the inventory of different materials and how they all come together to shape the environment of this planet.”

Exactly how much quartz there is, and how pervasive the clouds are, is hard to determine. “The clouds are likely present along the day/night transition (the terminator), which is the region that our observations probe,” said Grant. Given that the planet is tidally locked with a very hot day side and cooler night side, it is likely that the clouds circulate around the planet, but vaporize when they reach the hotter day side. “The winds could be moving these tiny glassy particles around at thousands of miles per hour.”

WASP-17 b is one of three planets targeted by the JWST-Telescope Scientist Team’s Deep Reconnaissance of Exoplanet Atmospheres using Multi-instrument Spectroscopy (DREAMS) investigations, which are designed to gather a comprehensive set of observations of one representative from each key class of exoplanets: a hot Jupiter, a warm Neptune, and a temperate rocky planet. The MIRI observations of hot Jupiter WASP-17 b were made as part of GTO program 1353.

The James Webb Space Telescope is the world’s premier space science observatory. Webb is solving mysteries in our solar system, looking beyond to distant worlds around other stars, and probing the mysterious structures and origins of our universe and our place in it. Webb is an international program led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.

Media Contacts:

Laura Betz
NASA’s Goddard Space Flight Center, Greenbelt, Md.
laura.e.betz@nasa.gov

Christine Pulliam
Space Telescope Science Institute, Baltimore, Md.
cpulliam@stsci.edu

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steve sabia

October Retirements

October Retirements

1 min read

October Retirements

Mark Hyatt

Portrait of Mark Hyatt.
Flight System Assurance Office, retired Sept. 30, 2023, with 38 years of NASA service.  
Credit: NASA

Mark David KanKam

Photo of Mark Kankam.
Office of STEM Engagement, retired Sept. 22, 2023, with 33 years of NASA service.
Credit: NASA

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Kelly M. Matter